Kareen Riviere scite author profile

An efficient method to synthesize hyaluronan oligosaccharide lipid conjugates is described. This strategy is based on the introduction of a double bond in the glucuronic acid of the hyaluronic acid (HA), by the biodegradation of HA with hyaluronate lyase, followed by the generation of a free aldehyde group at the nonreducing end of hyaluronic acid via ozonolysis and the subsequent reduction of the generated ozonide. The resulting aldehyde-functionalized HA is then coupled to dipalmitoyl phosphatidylethanolamine (DPPE) using reductive amination chemistry. This methodology can be extended to link molecules such as biotin, polymers, or proteins to HA for numerous applications in drug delivery and in the creation of biocompatible materials for tissue repair and engineering.

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Influence of Multivalent Nitrilotriacetic Acid Lipid−Ligand Affinity on the Circulation Half-Life in Mice of a Liposome-Attached His₆-Protein

Platt

Huang

Cao

et al. 2010

Bioconjugate Chem.

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Metal chelation-ligand interactions, such as occur between nitrilotriacetic acid (NTA)-nickel and multihistidines, enable the non-covalent attachment of histidine-modified proteins to liposomes and other particles. We compared three lipids: a mono-NTA lipid (circa 10 uM affinity) and two tris-NTA lipid derivatives (circa 3 nM and 0.2 nM affinity) in their ability to retain two different his6-containing proteins on NTA-liposomes in the presence of serum or plasma and after intravenous injection in mice. At nanomolar affinities the off-rate of a his6-ligand is sufficiently long so that his6-proteins attached to particle surfaces will remain with the particle for hours; thus, we hypothesized that the increased his6 affinity of multivalent NTA-modified liposomes would retain his6-proteins longer both in vitro and in vivo. For each of the three lipids, we found a robust association and complete activity retention of two his6-modified proteins: a far red-fluorescent protein, monomeric Katushka (mKate), and a prodrug-converting enzyme, yeast cytosine deaminase (yCD). Proteins associated more tightly in vitro with tris-NTA liposomes than with mono-NTA liposomes in the presence of refiltered fetal calf serum and mouse plasma. Free yCD exchanged with previously associated mKate for tris-NTA binding sites on the liposome surface. This exchange was due to the exchange of the proteins for NTA occupancy and not due to the exchange of tris-NTA lipid out of the liposome. The amount of yCD on the surface was similar if the proteins were co-associated or if mKate was pre-associated. This exchange confirms that NTA associated proteins are in a dynamic state and can exchange with multihistidine proteins in the biological milieu. There was no difference in circulation time of the protein when it was intravenously administered by itself or attached to any of the NTA-modified liposomes because in vivo the protein was rapidly released from the NTA liposomes. Upon recovery from blood, liposomes containing tris-NTA accumulated a different plasma protein profile than control liposomes, suggesting that Ni-NTA specifically interacts with some plasma proteins. The reason for the rapid protein dissociation from the liposome in vivo is not clear; it could be due to displacement by endogenous histidine-containing proteins or to natural chelators that remove nickel from the NTA. Regardless of the cause, improvements in chelator or ligand design are needed before metal chelation will be capable of retaining histidine-modified proteins on NTA liposomes after in vivo administration.

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Antitumor effect of folate-targeted liposomal doxorubicin in KB tumor-bearing mice after intravenous administration

Riviere

Huang

Jerger

et al. 2010

Journal of Drug Targeting

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The effect of folate-targeted liposomal doxorubicin (FTL-Dox) has been well characterized in folate receptor (FR) over-expressing tumors in vitro, particularly in KB human carcinoma cells. However, there are few studies evaluating the in vivo efficacy of FTL-Dox in KB murine xenograft models. In this study, we investigated the antitumor activity of FTL-Dox injected intravenously in mice bearing KB tumors. Folate ligands comprising of folate-polyethyleneglycoldistearoylphosphatidylethanolamine (FA-PEG-DSPE) were synthesized with different MW PEG. To design an optimum FTL-Dox formulation for therapeutic studies, we prepared various FTLs and characterized their in vitro targeting and in vivo tissue biodistribution. Mice were administered a single intravenous injection of free Dox, non-targeted PEGylated liposomal Dox (PL-Dox), or FTL-Dox. FTLs and PLs accumulated similarly in tumor tissue, despite FTLs' faster clearance from circulation. Mice treated with FTL-Dox 20 mg/kg had a slightly greater tumor growth inhibition and almost a 50% increase in life span than mice receiving PL-Dox 20 mg/kg (P = 0.0121; log-rank test). We conclude that FTLs administered systemically have the potential to enhance the delivery of anticancer drugs in vivo; however, their removal by FR expressing normal tissues may have to be blocked if the benefits of tumor targeting are to be realized.

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Anti-tumor activity of liposome encapsulated fluoroorotic acid as a single agent and in combination with liposome irinotecan

Riviere

Ferguson

Jerger

et al. 2011

Journal of Controlled Release

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To test the hypothesis that co-delivery of synergistic drug combinations in the same liposome provides a better anti-tumor effect than the drugs administered in separate liposomes, fluoroorotic acid (FOA) alone and in combination with irinotecan (IRN) were encapsulated in liposomes and evaluated for their anti-tumor activity in the C26 colon carcinoma mouse model. Fluoroorotic acid was dissolved in 7 M urea to increase its solubility so it could be passively loaded into liposomes at a high concentration. IRN was remote loaded into liposomes that contained the ammonium salt of the multi-valent 1,2,3,4-butanetetratcarboxylic acid with a greater than 90% efficiency and at a drug to lipid ratio of 0.2/1. When the two molecules were loaded into the same liposome, FOA was used to remote load IRN. Modulation of the drug/lipid ratio, temperature, and loading time allowed for consistent co-encapsulation of FOA + IRN at various molar ratios. The anti-tumor activity of L-FOA, L-IRN, L-FOA-IRN (5:1), and the L-FOA + L-IRN mixture (5:1) were examined in the C26 mouse model. The maximum tolerated dose of L-FOA was 10 mg/kg given weekly as compared to 100 mg/kg of the non-encapsulated FOA. Delivering two drugs in the same liposome provided a statistically better antitumor effect than delivering the drugs in separate liposomes at the same drug ratio. However, the synergistic activity of the 5:1 ratio of free drugs measured on C26 cells in vitro was not observed in the C26 tumor mouse model. These findings point out the challenges to the design of synergistic treatment protocols based upon results from in vitro cytotoxicity studies. L-FOA at 10 mg/kg as a single agent provided the best anti-tumor efficacy which supports previous suggestions that L-FOA has useful properties as a liposome dependent drug.

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In Vivo Bioequivalence and In Vitro Similarity Factor (f2) for Dissolution Profile Comparisons of Extended Release Formulations: How and When Do They Match?

2011

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Kareen Riviere

Efficient Synthesis of an Aldehyde Functionalized Hyaluronic Acid and Its Application in the Preparation of Hyaluronan−Lipid Conjugates

Influence of Multivalent Nitrilotriacetic Acid Lipid−Ligand Affinity on the Circulation Half-Life in Mice of a Liposome-Attached His₆-Protein

Antitumor effect of folate-targeted liposomal doxorubicin in KB tumor-bearing mice after intravenous administration

Anti-tumor activity of liposome encapsulated fluoroorotic acid as a single agent and in combination with liposome irinotecan

In Vivo Bioequivalence and In Vitro Similarity Factor (f2) for Dissolution Profile Comparisons of Extended Release Formulations: How and When Do They Match?

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Kareen Riviere

Efficient Synthesis of an Aldehyde Functionalized Hyaluronic Acid and Its Application in the Preparation of Hyaluronan−Lipid Conjugates

Influence of Multivalent Nitrilotriacetic Acid Lipid−Ligand Affinity on the Circulation Half-Life in Mice of a Liposome-Attached His6-Protein

Antitumor effect of folate-targeted liposomal doxorubicin in KB tumor-bearing mice after intravenous administration

Anti-tumor activity of liposome encapsulated fluoroorotic acid as a single agent and in combination with liposome irinotecan

In Vivo Bioequivalence and In Vitro Similarity Factor (f2) for Dissolution Profile Comparisons of Extended Release Formulations: How and When Do They Match?

Contact Info

Product

Resources

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Influence of Multivalent Nitrilotriacetic Acid Lipid−Ligand Affinity on the Circulation Half-Life in Mice of a Liposome-Attached His₆-Protein